DE19752524C2 - Smoothing unit for a web of thermoplastic material - Google Patents

Description

The invention relates to a calender for an Ex truders extruded material web via a slot die thermoplastic, in particular film or one those that are processed into plates.

In US 49 97 358 a smoothing system is described in which meh rere for smoothing and cooling the molten from a wide slot nozzle by means of an extruder discharged material web rollers made of thermoplastic plastic are provided are. The rollers are arranged in a stand. Since ever because plastic to be processed into a material web for the thickness tolerance and material surface to be achieved Adjustment of the guidance and length of stay of the material web in Kon clock to the rollers required, are at least one stationary Roller and one around it in different angular positions fixable adjustment roller provided. The adjustment roller is on Frame adjustable guided by bearings. The frames are on both sides of the stationary roller on perforated disks with a circumference distributed holes with their radially inner ends by means of Pin can be fixed. The radially outer ends of the frames are can also be attached to the support arms of the stand by means of bolts. The ends of the adjusting roller are rotatable and radial adjustable in guides of the frame to the stationary roller Since the perforated disks on the bearings for the stationary Act on the roller, they are additionally loaded. Beyond that the accessibility of both the adjustment roller and  the fixed roller deteriorated.

The invention has for its object to a smoothing create, which is characterized by good usability and adherence to narrow tolerances for those processed on it Material webs allowed.

According to the invention, a smoothing mechanism is used to achieve this object a stand with rollers for smoothing and cooling the material ren, which are attached to the stand, one of which roller is stationary and is designed as an adjusting roller and arranged around and radially adjustable to the fixed roller is, wherein at least one adjusting roller is provided, each Adjustment roller rotatable in bearings at both ends is held and each of the two bearings on a guide wa adjustable radially to the axis of rotation of the fixed roller is brought, and also the carriage of each adjusting roller to separate from the storage of the fixed roller and to the spaced circular guideways from Füh tion rails are supported and each adjusting roller by means of Carriage on the guide rails around the stationary roller is infinitely variable in circumference and furthermore the Füh Rails connected to the stand or part of it ben are provided.

The fact that the support and guidance of each adjusting roller the storage of the stationary roller is separated, on the one hand good accessibility for operating the system and for others have high rigidity for supporting the adjusting roller ze achieved. The storage of the stationary roller is therefore unaffected influenced. This also means that there are no forces on the stationary Roller exerted from the additional support of the adjusting roller become. Overall, high adjustment accuracy and the keeping narrowly tolerated gaps between the fixed roller and the adjustment roller achieved. Furthermore, the adjustment is also way that can be achieved, in the sense of pivoting the Adjusting roller around the stationary roller compared to a solution which is carried out on the stationary roller, enlarged. It can be a very rigid storage and support for  achieve the setting roller.

The peculiarity of the different plastic materials makes it desirable to melt out the melt the sheet of material emerging to the rollers of the To be able to change smoothing. So there are materials that ei outlet is inclined or vertically downwards  require the slot die because of the leaking material train with horizontal entry into the smoothing system too big train would be subjected to stresses while other materials condition or make horizontal entry possible.

In further development of the solution according to the invention is therefore before seen that the stand together with the guide rails by one Swivel axis parallel to the axis of rotation of the fixed roller runs, is pivotally adjustable.

The already existing and circular are available for pivoting curved guide rails. These can be ge are used to make the support so that a Ver swivel over the periphery of the guide rails. The swivel adjustable arrangement also allows in the event that laminating films or reinforcing sheets are running out fen, adjusted feed ratios can be achieved.

Preferably, the pivot axis is arranged so that it coincides with the axis of rotation of the stationary roller.

In concretization of the adjustment of the adjustment roller is pre see that at both ends of the adjustment roller two feet tion rails are arranged parallel to each other, between de NEN each a carriage is added that each Füh trolleys Rollers for support on inner and outer guides tion tracks of the guide rails and that each one the narrow surfaces of a guide that run as a circular arc rail of each pair of guide rails on a toothing points with which is arranged on the associated carriage toothed pinion is engaged.

The synchronization of the two carriages to the Er aiming for an exact parallel adjustment of the ends of the ver setting roller can be achieved in that the two pinions of the guide carriage arranged at both ends of the adjusting roller  are connected by a shaft and that a pinion can be driven by a power drive.

Finally, an arrangement in which the lengthwise direction of the Adjustment roller outer guide rails on their radial outer narrow surfaces which have teeth provided. The storage of the stand for pivoting about the axis of rotation stationary roller takes place in a further embodiment of the invention characterized in that the radially outer narrow surfaces of the toothing loose guide rails rest on rollers attached to a support frames are attached. To pivot the stand are on Support frame two drive pinions, each with a the teeth on the radially outer narrow surface of the two toothed guide rails are engaged. Both are through a common drive can be driven so that a synchronize te pivoting takes place. For lateral guidance opposite the Support frames are one of the toothless guide rails load-bearing rollers with rims. These encompass the audible guide rail on the side. The other roles that the further toothless guide rails are assigned designed cylindrical throughout. With such training constraints are avoided.

The smoothing unit preferably comprises three rollers. Of these poses one is the stationary and one is the adjusting roller. It is further a third roller arranged in the stand, which becomes the fixed whale ze is only radially adjustable. However, like the Ver adjusting roller designed and arranged.

A preferred embodiment is shown in the drawing represented table.

It shows

Fig. 1 is a side view of the smoothing mill according to the invention in a first alignment position,

Fig. 2 shows a section II-II of FIG. 1 as well as a de tail,

Fig. 3 is a view of the support frame with the drive for pivoting the stand and

Fig. 4, the smoothing unit shown in Fig. 1 in a comparison with FIG. 1 pivoted to the right position.

The stand 1 can be seen from FIGS. 1 and 2. This comprises a first pair of guide rails 2 , which is constructed from a first toothed guide rail 2 'and a second toothless guide rail 2 ". The two guide rails 2 ' and 2 " are arranged at a parallel distance from one another. A second pair of guide rails 3 is provided at a distance from the first pair of guide rails 2 . This also includes a toothed guide rail 3 'and inwardly a toothless guide rail 3 ". The guide rails 2 ', 2 ", 3 'and 3 "run in an arc shape, that is, they represent a circular arc over a substantial part of their course. They are The two pairs of guide rails 2 , 3 each have a crossmember 4 , 5 , to which they are arranged laterally and which runs like a chord of a circle. Furthermore, the two pairs of guide rails 2 , 3 are connected to one another ,

A fixed roller 8 is rotatably mounted on the two crossbeams 4 , 5 by means of bearings 6 , 7 and can be driven by a power drive. The stationary roller 8 has the axis of rotation X. Between the two guide rails 2 ', 2 "and 3 ', 3 " of the guide rail pairs 2 , 3 one end of the arc Ver adjusting devices 12 , 13 are arranged, which are used to adjust egg ner roller 9 , the bearings 10 , 11 , which are acted upon by the adjusting devices 12 , 13 . The roller 9 is radially adjustable to the stationary roller 8 , ie to the axis of rotation X, by means of the adjusting devices 12 , 13 . Furthermore, an adjustment roller 14 is provided, which by means of guide carriages 15 , 16 , which support positions at both ends, supports the position for the adjustment roller 14 , can be pivoted on a circular arc about the axis of rotation X on the guide rail pairs 2 , 3 and additionally on the guide carriage 15 , 16 in the radial direction Rich to the fixed roller 8 is held adjustable.

Guide tracks serve to guide the guide carriages 15 , 16 . Thus, the first pair of guide rails 2 on the first toothed guide rail 2 'has a radially inner inner guide path 17 , which represents an arc that is centered on the axis of rotation X. The second, toothless guide rail 2 "has a radially inner and circular arc-shaped inner guide track 18 , which is also centered on the axis of rotation X. The second pair of guide rails 3 also has two inner guide tracks 19 , 20 of which the inner guide track 19 of the toothed guide rail 3 'and the inner guideway 20 of the toothless guide rail 3 "is assigned radially on the inside, both of which are likewise designed as a circular arc around the axis of rotation X. Furthermore, the toothless guide rail 2 "has an outer guide track 21 , which is also designed as an arcuate path and the center of which is centered on the axis of rotation X of the stationary roller 8. Likewise, the toothless guide rail 3 " has an outer guide track 22 designed as a circular arc with the Center on the axis of rotation X of the fixed roller 8 . The two toothed guide rails 2 'and 3 ' lying on the outside with respect to the adjusting roller 14 each have teeth 23 and 24 on an outer narrow surface running as a circular path. The guide carriage 15 , 16 are each between the two guide rails 2 'and 2 "or 3 ' and 3 " of the two guide rail pairs 2 , 3 arranged and the main body of each guide carriage 15 , 16 has four rollers 25 , 26 inside , de NEN the two spaced rollers 25 for support on the inner track 19 of the toothed Füh guide rail 3 'are determined. Correspondingly, the rollers 26 , which are arranged at a distance from one another, are intended to be supported on the inner guide track 20 of the toothless guide rail 3 ". Outside, the guide carriage 16 is additionally guided via two rollers 27 on the outer guide track 22 of the toothless guide rail 3 ". In the same way, the guide carriage 15 is adjustable in relation to the first pair of guide rails 2 on the guide rails 2 ', 2 "in the circumferential direction about the axis of rotation X of the fixed roller 8. For the circumferential adjustment of the guide carriages 15 , 16 these are each toothed pinion 28, assigned to the 29th, the two pinions are interconnected via a shaft 30 and the pinion 28 is associated with a motor drive 31st this arrangement ensures will ensure that a synchronized adjustment of the two guide carriages are 15, 16th The pinions 28, 29 are in engagement with the toothings 23 , 24 of the toothed guide rails 2 ', 3 '. The power drive 31 comprises a motor 32 and an angular gear 33 with which the pinion 28 is connected in a rotationally fixed manner.

The Fig. 2 further shows a detail, wherein the cutting position extends through the serving for the guide roller 27, len to darzustel that the carriage 16 is guided by the roller 27 on the outer guide rail 22 of the tooth-free guide rail 3 ".

The stand 1 rests, as can be seen in particular from FIGS. 1 and 3, by means of the two toothless guide rails NEN 2 "and 3 " on support rollers 36 , 37 , 38 , 39 of a 35 on Laufrä 35 movable support frame 34 such that he about the axis of rotation X of the fixed roller 8 is pivotally adjustable. From Fig. 3 can also be seen that the 2 the toothing loose guide rail "supporting carrier rollers 36 are guided 37 with flanges 40, 41 from which the guide rail 2 'additionally comprise laterally, so that this in the direction of the axis of rotation X ge hold is. The stand 1 is thus held in the direction of the longitudinal axis X by the support rollers 36 , 37 . The stand 1 is supported by means of the guide rail 2 "with the outer guide track 21 , which is designed as a circular path around the axis of rotation X, on the spaced apart on the support frame 34 support support 36 , 37 , while the guide rail 3 " with their outer circular arc-shaped outer guide track 22 on the outer surface of the smooth cylindrical support rollers 38 , 39 is supported. These are also arranged at a distance from each other. Because these are smooth cylindrical, no constraints can occur. The stand 1 is guided in the direction of the axis of rotation X exclusively by the two support rollers 36 , 37 .

For pivotal adjustment of the stand, for example, from a Po 1 sition according to FIG. Into a position as illustrated for example in Fig. 4, is a pivot drive, which two drive pinions 42, 43 comprises, as shown in Fig. 3, the support frame 34 are mounted and can be driven together by means of a drive shaft 44 connecting them by a drive unit 45 , which comprises a motor and a transmission. The drive pinion 42 , 43 engage in the toothing 23 , 24 of the two guide rails 2 "and 3 ".

In Fig. 1, the slot die B is also roughly drawn with contours, whereby it can be seen that the nozzle outlet is directed vertically downwards and the two rollers 8 , 9 are aligned horizontally accordingly, in order to be able to accommodate the material web emerging from the slot die B. , The web of material is then guided around the outer surface of the stationary roller 8 in the right-pivoting sense until it hits the adjusting roller 14 by which it is guided to the left. The looping of the stationary roller 8 through the web of material can be changed by adjusting the adjusting roller 14 by means of the guide carriage 15 , 16 on the pairs of guide rails 2 , 3 , so that the contact length to the stationary roller 8 can be changed accordingly to achieve the desired cooling to achieve. If a material is processed which, due to its viscosity and other properties, makes an extrusion direction appear expedient, in which the slot die B leads to a horizontal discharge of the melt, a setting of the rollers 8 , 9 of the slot die B is selected as shown in FIG . 4 is visible. For this purpose, the entire stand 1 is pivoted about the axis of rotation X into the position shown in FIG. 4. The guide rails 2 "and 3 " move on the support rollers 36 , 37 and 38 , 39 of the support frame 34 when the pivot drive, which comprises the drive unit 45 , the drive pinion 42 , 43 and the drive shaft 44 , is actuated accordingly.

LIST OF REFERENCE NUMBERS

1

stand

2

first pair of guide rails

2

'' toothed guide rail

2

"toothless guide rail

3

second pair of guide rails

3

'' toothed guide rail

3

"toothless guide rail

4

.

5

traverse

6

.

7

storage

8th

stationary roller

9

roller

10

.

11

storage

12

.

13

adjustment

14

adjusting roller

15

.

16

carriages

17

.

18

.

19

.

20

inner guideways

21

.

22

outer guideways

23

.

24

gearing

25

.

26

.

27

roll

28

.

29

pinion

30

wave

31

power drive

32

engine

33

angle gear

34

supporting frame

35

impellers

36

.

37

.

38

.

39

supporting role

40

.

41

shelf

42

.

43

driving pinion

44

drive shaft

45

drive unit
B Wide slot nozzle
X axis of rotation

Claims (10)

1. Smoothing unit for a sheet of thermoplastic material, in particular a sheet of film or a sheet which is processed into sheets, by means of an extruder via a slot die (B), with a stand ( 1 ), with rollers ( 8 , 9 , 14 ) for smoothing and cooling the mate rialbahn, which are attached to the stand ( 1 ), of which a roller ( 8 ) is arranged in a fixed position and one is designed as an adjusting roller ( 14 ) and is arranged so as to be adjustable radially and radially to the stationary roller ( 8 ) .
wherein at least one adjusting roller ( 14 ) is provided, each adjusting roller ( 14 ) is rotatably held at its two ends in bearings and
each of the two bearings on a guide carriage ( 15 , 16 ) radially to the axis of rotation (X) of the fixed roller ( 8 ) is adjustably attached,
wherein furthermore the guide carriages ( 15 , 16 ) of each adjusting roller ( 14 ) on guideways ( 17 , 18 , 19 , 20 , 21 , 22 ) of guide rails ( 17 , 18 , 19 , 20 , 21 , 22 ) separated from the mounting of the stationary roller ( 8 ) and spaced apart therefrom. 2 ', 2 ", 3 ', 3 ") are supported and
each adjusting roller (14) ( '", 3, 2', 3" 2) by means of the guide carriage (15, 16) on the guide rails to the fixed roller (8) continuously circumferentially adjustable and
wherein the guide rails ( 2 ', 2 ", 3 ', 3 ") are connected to the stand ( 1 ) or are part of the same. 2. Smoothing unit according to claim 1, characterized in that the stand ( 1 ) together with the guide rails ( 2 ', 2 ", 3 ', 3 ") about a pivot axis which runs parallel to the axis of rotation (X) of the stationary roller ( 8 ) , is adjustable. 3. Smoothing unit according to claim 2, characterized in that the pivot axis coincides with the axis of rotation (X) of the fixed roller ( 8 ). 4. smoothing unit according to claim 1, characterized in that at both ends of the adjusting roller ( 14 ) two guide rails ( 2 ', 2 ", 3 ', 3 ") are arranged parallel to each other, between each of which a guide carriage ( 15 , 16 ) is included that each guide carriage ( 15 , 16 ) rollers ( 25 , 26 , 27 ) for support on inner and outer guideways ( 17 , 18 , 19 , 20 , 21 , 22 ) of the guide rails NEN ( 2 ', 2 ", 3rd ', 3 ") and one of the narrow surfaces of a guide rail ( 2 ', 3 ') of each pair of guide rails ( 2 , 3 ) running as a circular arc has a toothing ( 23 , 24 ) with which a tooth on the associated guide carriage ( 15 , 16 ) arranged toothed pinion ( 28 , 29 ) is engaged. 5. Smoothing unit according to claim 4, characterized in that the two pinions ( 28 , 29 ) of the guide carriage ( 15 , 16 ) arranged at the two ends of the adjusting roller ( 14 ) are connected to one another by a shaft ( 30 ) and in that a pinion ( 28 ) can be driven by a power drive ( 31 ). 6. smoothing unit according to claim 4, characterized in that in the longitudinal direction of the adjusting roller ( 14 ) lying lying guide rails ( 2 ', 3 ') on their radially outer narrow surfaces have the teeth ( 23 , 24 ). 7. smoothing unit according to one of claims 1 to 6, characterized in that for pivoting the stand ( 1 ) the radially outer guideways ( 21 , 22 ) of the toothless guide rails NEN ( 2 ", 3 ") on rollers ( 36 , 37 , 38 , 39 ), which are attached to a support frame ( 34 ). 8. Smoothing unit according to claim 7, characterized in that two drive pinions ( 42 , 43 ) are mounted on the support frame ( 34 ), each of which with one of the toothings ( 23 , 24 ) of the two toothed guide rails ( 2 ', 3 ') in engagement are and a common drive ( 45 ) is assigned to them. That the one of the tooth-free guide rails ", which support rollers bearing (36, 37) are provided with flanges (40, 41) the associated guide rail (2 embrace 9. smoothing unit according to claim 7, characterized in that (2)") laterally. 10. Smoothing unit according to one of claims 1 to 9, characterized in that a total of three rollers ( 8 , 9 , 14 ) are provided, one of which is the stationary roller ( 8 ) and one the adjusting roller ( 14 ), and that third roller ( 9 ) in the stand ( 1 ) for the stationary roller ( 8 ) is only arranged radially adjustable.